def display_distancetree(self,
report,
max_level=100,
frac=0.5,
max_branching=5):
plans, distances = self.cover.compute_distances()
D = dict(distances)['pathlength']
plan2point2 = get_embedding_mds(plans, D, ndim=2)
plan2point3 = get_embedding_mds(plans, D, ndim=3)
plan_level = lambda x: G.node[x]['level']
_, G = make_distancetree(D, plans, max_branching=max_branching)
copy_nodes_attrs(self.cover.G, G)
n = len(plans)
subnodes = [
x for x in G
if G.node[x]['level'] <= max_level and G.node[x]['order'] <= frac *
n
]
Gsub = G.subgraph(subnodes)
f = report.figure()
with f.data_file('tree', MIME_PNG) as filename:
draw_node_graph(filename,
Gsub,
plan2point2.__getitem__,
color_func=plan_level,
label_func=lambda x: G.node[x]['order'],
cmap='Set2')
with f.plot('2D') as pylab:
plot_2d_graph(pylab, Gsub, plan2point2.__getitem__, plan_level)
with f.plot('3D') as pylab:
plot_3d_graph(pylab, Gsub, plan2point3.__getitem__, plan_level)
def draw_embedding(self, report, plans, D):
f = report.figure('distances')
report.data('plans', plans)
report.data('distance', D).display('scale').add_to(f)
with f.plot('D_stats', caption='Distance') as pylab:
pylab.hist(D.flat, 100)
if len(plans) < 3:
msg = 'Cannot draw embedding with only %d plans. ' % (len(plans))
report.text('warn', msg)
return
edges2color = lambda n1, n2: edges_type_to_color(self.G, n1, n2)
with report.subsection('embed2d') as r2d:
f = r2d.figure('embedding')
with f.plot('2D') as pylab:
plan2point2 = get_embedding_mds(plans, D, ndim=2)
plan2color = self.visibility
plot_2d_graph(pylab, self.G, plan2point2.__getitem__, plan2color,
edges2color)
with report.subsection('embed3d') as r3d:
f = r3d.figure()
with f.plot('3D') as pylab:
plan2point3 = get_embedding_mds(plans, D, ndim=3)
plan2color = self.visibility
plot_3d_graph(pylab, self.G, plan2point3.__getitem__,
plan2color, edges2color)
def display_distancetree(self, report, max_level=100, frac=0.5,
max_branching=5):
plans, distances = self.cover.compute_distances()
D = dict(distances)['pathlength']
plan2point2 = get_embedding_mds(plans, D, ndim=2)
plan2point3 = get_embedding_mds(plans, D, ndim=3)
plan_level = lambda x: G.node[x]['level']
_, G = make_distancetree(D, plans, max_branching=max_branching)
copy_nodes_attrs(self.cover.G, G)
n = len(plans)
subnodes = [x for x in G if G.node[x]['level'] <= max_level
and G.node[x]['order'] <= frac * n]
Gsub = G.subgraph(subnodes)
f = report.figure()
with f.data_file('tree', MIME_PNG) as filename:
draw_node_graph(filename, Gsub,
plan2point2.__getitem__,
color_func=plan_level,
label_func=lambda x: G.node[x]['order'],
cmap='Set2')
with f.plot('2D') as pylab:
plot_2d_graph(pylab, Gsub, plan2point2.__getitem__, plan_level)
with f.plot('3D') as pylab:
plot_3d_graph(pylab, Gsub, plan2point3.__getitem__, plan_level)
